Differences Between WebOb and Other Systems

This document points out some of the API differences between the Request and Response object, and the objects in other systems.

paste.wsgiwrappers and Pylons

The Pylons request and response object are based on paste.wsgiwrappers.WSGIRequest and WSGIResponse

There is no concept of defaults in WebOb. In Paste/Pylons these serve as threadlocal settings that control certain policies on the request and response object. In WebOb you should make your own subclasses to control policy (though in many ways simply being explicit elsewhere removes the need for this policy).

Request

body:
This is a file-like object in WSGIRequest. In WebOb it is a string (to match Response.body) and the file-like object is available through req.body_file
languages():
This is available through req.accept_language, particularly req.accept_language.best_match(supported_languages)
match_accept(mimetypes):
This is available through req.accept.first_match(mimetypes); or if you trust the client's quality ratings, you can use req.accept.best_match(mimetypes)
errors:
This controls how unicode decode errors are handled; it is now named unicode_errors

There are also many extra methods and attributes on WebOb Request objects.

Response

determine_charset():
Is now available as res.charset
has_header(header):
Should be done with header in res.headers
get_content() and wsgi_response():
These are gone; you should use res.body or res(environ, start_response)
write(content):
Available in res.body_file.write(content).
flush() and tell():
Not available.
tell():
Available in res.body_file.tell().

There are also many extra methods and attributes on WebOb Response objects.

Django

This is a quick summary from reading the Django documentation.

Request

encoding:
Is req.charset
REQUEST:
Is req.params
FILES:
File uploads are cgi.FieldStorage objects directly in res.POST
META:
Is req.environ
user:
No equivalent (too connected to application model for WebOb). There is req.remote_user, which is only ever a string.
session:
No equivalent
raw_post_data:
Available with req.body
__getitem__(key):
You have to use req.params
is_secure():
No equivalent; you could use req.scheme == 'https'.

QueryDict

QueryDict is the way Django represents the multi-key dictionary-like objects that are request variables (query string and POST body variables). The equivalent in WebOb is MultiDict.

Mutability:
WebOb dictionaries are sometimes mutable (req.GET is, req.params is not)
Ordering:
I believe Django does not order the keys fully; MultiDict is a full ordering. Methods that iterate over the parameters iterate over keys in their order in the original request.
keys(), items(), values() (plus iter*):
These return all values in MultiDict, but only the last value for a QueryDict. That is, given a=1&a=2 with MultiDict d.items() returns [('a', '1'), ('a', '2')], but QueryDict returns [('a', '1')]
getlist(key):
Available as d.getall(key)
setlist(key):
No direct equivalent
appendlist(key, value):
Available as d.add(key, value)
setlistdefault(key, default_list):
No direct equivalent
lists():
Is d.dict_of_lists()

The MultiDict object has a d.getone(key) method, that raises KeyError if there is not exactly one key. There is a method d.mixed() which returns a version where values are lists if there are multiple values for a list. This is similar to how many cgi-based request forms are represented.

Response

Constructor:
Somewhat different. WebOb takes any keyword arguments as attribute assignments. Django only takes a couple arguments. The mimetype argument is content_type, and content_type is the entire Content-Type header (including charset).
dictionary-like:
The Django response object is somewhat dictionary-like, setting headers. The equivalent dictionary-like object is res.headers. In WebOb this is a MultiDict.
has_header(header):
Use header in res.headers
flush():
Not available
content:
Use res.body for the str value, res.text for the unicode value

Response Subclasses

These are generally like webob.exc objects. HttpResponseNotModified is HTTPNotModified; this naming translation generally works.

CherryPy/TurboGears

The CherryPy request object is also used by TurboGears 1.x.

Request

app:
No equivalent
base:
req.application_url
close():
No equivalent
closed:
No equivalent
config:
No equivalent
cookie:
A SimpleCookie object in CherryPy; a dictionary in WebOb (SimpleCookie can represent cookie parameters, but cookie parameters are only sent with responses not requests)
dispatch:
No equivalent (this is the object dispatcher in CherryPy).
error_page, error_response, handle_error:
No equivalent
get_resource():
Similar to req.get_response(app)
handler:
No equivalent
headers, header_list:
The WSGI environment represents headers as a dictionary, available through req.headers (no list form is available in the request).
hooks:
No equivalent
local:
No equivalent
methods_with_bodies:
This represents methods where CherryPy will automatically try to read the request body. WebOb lazily reads POST requests with the correct content type, and no other bodies.
namespaces:
No equivalent
protocol:
As req.environ['SERVER_PROTOCOL']
query_string:
As req.query_string
remote:
remote.ip is like req.remote_addr. remote.port is not available. remote.name is in req.environ.get('REMOTE_HOST')
request_line:
No equivalent
respond():
A method that is somewhat similar to req.get_response().
rfile:
req.body_file
run:
No equivalent
server_protocol:
As req.environ['SERVER_PROTOCOL']
show_tracebacks:
No equivalent
throw_errors:
No equivalent
throws:
No equivalent
toolmaps:
No equivalent
wsgi_environ:
As req.environ

Response

From information from the wiki.

body:
This is an iterable in CherryPy, a string in WebOb; res.app_iter gives an iterable in WebOb.
check_timeout:
No equivalent
collapse_body():
This turns a stream/iterator body into a single string. Accessing res.body will do this automatically.
cookie:
Accessible through res.set_cookie(...), res.delete_cookie, res.unset_cookie()
finalize():
No equivalent
header_list:
In res.headerlist
stream:
This can make CherryPy stream the response body out directory. There is direct no equivalent; you can use a dynamically generated iterator to do something similar.
time:
No equivalent
timed_out:
No equivalent

Yaro

Yaro is a small wrapper around the WSGI environment, much like WebOb in scope.

The WebOb objects have many more methods and attributes. The Yaro Response object is a much smaller subset of WebOb's Response.

Request

query:
As req.GET
form:
As req.POST
cookie:
A SimpleCookie object in Yaro; a dictionary in WebOb (SimpleCookie can represent cookie parameters, but cookie parameters are only sent with responses not requests)
uri:
Returns a URI object, no equivalent (only string URIs available).
redirect:
Not available (response-related). webob.exc.HTTPFound() can be useful here.
forward(yaroapp), wsgi_forward(wsgiapp):
Available with req.get_response(app) and req.call_application(app). In both cases it is a WSGI application in WebOb, there is no special kind of communication; req.call_application() just returns a webob.Response object.
res:
The request object in WebOb may have a req.response attribute.

Werkzeug

An offshoot of Pocoo, this library is based around WSGI, similar to Paste and Yaro.

This is taken from the wrapper documentation.

Request

path:
As req.path_info
args:
As req.GET
form:
As req.POST
values:
As req.params
files:
In req.POST (as FieldStorage objects)
data:
In req.body_file

Response

response:
In res.body (settable as res.body or res.app_iter)
status:
In res.status_code
mimetype:
In res.content_type

Zope 3

From the Zope 3 interfaces for the Request and Response.

Request

locale, setupLocale():
This is not fully calculated, but information is available in req.accept_languages.
principal, setPrincipal(principal):
req.remote_user gives the username, but there is no standard place for a user object.
publication, setPublication(),
These are associated with the object publishing system in Zope. This kind of publishing system is outside the scope of WebOb.
traverse(object), getTraversalStack(), setTraversalStack():
These all relate to traversal, which is part of the publishing system.
processInputs(), setPathSuffix(steps):
Also associated with traversal and preparing the request.
environment:
In req.environ
bodyStream:
In req.body_file
interaction:
This is the security context for the request; all the possible participants or principals in the request. There's no equivalent.
annotations:
Extra information associated with the request. This would generally go in custom keys of req.environ, or if you set attributes those attributes are stored in req.environ['webob.adhoc_attrs'].
debug:
There is no standard debug flag for WebOb.
__getitem__(key), get(key), etc:
These treat the request like a dictionary, which WebOb does not do. They seem to take values from the environment, not parameters. Also on the Zope request object is items(), __contains__(key), __iter__(), keys(), __len__(), values().
getPositionalArguments():
I'm not sure what the equivalent would be, as there are no positional arguments during instantiation (it doesn't fit into WSGI). Maybe wsgiorg.urlvars?
retry(), supportsRetry():
Creates a new request that can be used to retry a request. Similar to req.copy().
close(), hold(obj):
This closes resources associated with the request, including any "held" objects. There's nothing similar.

Response

authUser:
Not sure what this is or does.
reset():
No direct equivalent; you'd have to do res.headers = []; res.body = ''; res.status = 200
setCookie(name, value, **kw):
Is res.set_cookie(...).
getCookie(name):
No equivalent. Hm.
expireCookie(name):
Is res.delete_cookie(name).
appendToCookie(name, value):
This appends the value to any existing cookie (separating values with a colon). WebOb does not do this.
setStatus(status):
Availble by setting res.status (can be set to an integer or a string of "code reason").
getHeader(name, default=None):
Is res.headers.get(name).
getStatus():
Is res.status_code (or res.status to include reason)
addHeader(name, value):
Is res.headers.add(name, value) (in Zope and WebOb, this does not clobber any previous value).
getHeaders():
Is res.headerlist.
setHeader(name, value):
Is res.headers[name] = value.
getStatusString():
Is res.status.
consumeBody():
This consumes any non-string body to turn the body into a single string. Any access to res.body will do this (e.g., when you have set the res.app_iter).
internalError():
This is available with webob.exc.HTTP*().
handleException(exc_info):
This is provided with a tool like paste.exceptions.
consumeBodyIter():
This returns the iterable for the body, even if the body was a string. Anytime you access res.app_iter you will get an iterable. res.body and res.app_iter can be interchanged and accessed as many times as you want, unlike the Zope equivalents.
setResult(result):

You can achieve the same thing through res.body = result, or res.app_iter = result. res.body accepts None, a unicode string (if you have set a charset) or a normal string. res.app_iter only accepts None and an interable. You can't update all of a response with one call.

Like in Zope, WebOb updates Content-Length. Unlike Zope, it does not automatically calculate a charset.

mod_python

Some key attributes from the mod_python request object.

Request

req.uri:
In req.path.
req.user:
In req.remote_user.
req.get_remote_host():
In req.environ['REMOTE_ADDR'] or req.remote_addr.
req.headers_in.get('referer'):
In req.headers.get('referer') or req.referer (same pattern for other request headers, presumably).

Response

util.redirect or req.status = apache.HTTP_MOVED_TEMPORARILY:

from webob.exc import HTTPTemporaryRedirect
exc = HTTPTemporaryRedirect(location=url)
return exc(environ, start_response)

req.content_type = "application/x-csv" and req.headers_out.add('Content-Disposition', 'attachment;filename=somefile.csv'):

res = req.ResponseClass()
res.content_type = 'application/x-csv'
res.headers.add('Content-Disposition', 'attachment;filename=somefile.csv')
return res(environ, start_response)

webapp Response

Note

Google App Engine released the successor to webapp, webapp2.

The Google App Engine webapp framework uses the WebOb Request object, but does not use its Response object.

The constructor for webapp.Response does not take any arguments. The response is created by the framework, so you don't use it like return Response(...), instead you use self.response. Also the response object automatically has Cache-Control: no-cache set, while the WebOb response does not set any cache headers.

resp.set_status(code, message=None):
This is handled by setting the resp.status attribute.
resp.clear():
You'd do resp.body = ""
resp.wsgi_write(start_response):
This writes the response using the start_response callback, and using the start_response writer. The WebOb response object is called as a WSGI app (resp(environ, start_response)) to do the equivalent.
resp.out.write(text):
This writes to an internal StringIO instance of the response. This uses the ability of the standard StringIO object to hold either unicode or str text, and so long as you are always consistent it will encode your content (but it does not respect your preferred encoding, it always uses UTF-8). The WebOb method resp.write(text) is basically equivalent, and also accepts unicode (using resp.charset for the encoding). You can also write to resp.body_file, but it does not allow unicode.

Besides exposing a .headers attribute (based on wsgiref.headers.Headers) there is no other API for the webapp response object. This means the response lacks:

  • A usefully readable body or status.
  • A useful constructor that makes it easy to treat responses like objects.
  • Providing a non-string app_iter for the body (like a generator).
  • Parsing of the Content-Type charset.
  • Getter/setters for parsed forms of headers, specifically cache_control and last_modified.
  • The cache_expires method
  • set_cookie, delete_cookie, and unset_cookie. Instead you have to simply manually set the Set-Cookie header.
  • encode_content and decode_content for handling gzip encoding.
  • md5_etag() for generating an etag from the body.
  • Conditional responses that will return 304 based on the response and request headers.
  • The ability to serve Range request automatically.

PHP

PHP does not have anything really resembling a request and response object. Instead these are encoded in a set of global objects for the request and functions for the response.

$_POST, $_GET, $_FILES

These represent req.POST and req.GET.

PHP uses the variable names to tell whether a variable can hold multiple values. For instance $_POST['name[]'], which will be an array. In WebOb any variable can have multiple values, and you can get these through req.POST.getall('name').

The files in $_FILES are simply in req.POST in WebOb, as FieldStorage instances.

$_COOKIES

This is in req.cookies.

$_SERVER, $_REQUEST, $_ENV

These are all in req.environ. These are not split up like they are in PHP, it's all just one dictionary. Everything that would typically be in $_ENV is technically optional, and outside of a couple CGI-standard keys in $_SERVER most of those are also optional, but it is common for WSGI servers to populate the request with similar information as PHP.

$HTTP_RAW_POST_DATA

This contains the unparsed data in the request body. This is in req.body.

The response

Response headers in PHP are sent with header("Header-Name: value"). In WebOb there is a dictionary in resp.headers that can have values set; the headers aren't actually sent until you send the response. You can add headers without overwriting (the equivalent of header("...", false)) with resp.headers.add('Header-Name', 'value').

The status in PHP is sent with http_send_status(code). In WebOb this is resp.status = code.

The body in PHP is sent implicitly through the rendering of the PHP body (or with echo or any other functions that send output).